CERN Accelerating science

If you experience any problem watching the video, click the download button below
Download Embed
Preprint
Report number arXiv:2402.05995 ; CERN-TH-2024-021
Title The unexpected uses of a bowling pin: exploiting 20Ne isotopes for precision characterizations of collectivity in small systems
Author(s) Giacalone, Giuliano (U. Heidelberg, ITP) ; Bally, Benjamin (IRFU, Saclay) ; Nijs, Govert (CERN) ; Shen, Shihang (IAS, Julich) ; Duguet, Thomas (IRFU, Saclay ; Leuven U.) ; Ebran, Jean-Paul (CEA DAM ; U. Paris-Saclay) ; Elhatisari, Serdar (Gaziantep U. ; Bonn U., HISKP ; U. Bonn, Phys. Inst., BCTP) ; Frosini, Mikael (CEA Cadarache) ; Lähde, Timo A. (IAS, Julich ; JCHP, Julich ; Unlisted, DE) ; Lee, Dean (Michigan State U.) Prikaži svih 19 autora
Imprint 2024-02-08
Number of pages 17
Note 17 pages, 14 figures. The Trajectum code can be found at https://sites.google.com/view/govertnijs/trajectum and plotting routines can be found at http://wilkevanderschee.nl/trajectum
Subject category nucl-ex ; Nuclear Physics - Experiment ; hep-ph ; Particle Physics - Phenomenology ; nucl-th ; Nuclear Physics - Theory
Abstract Whether or not femto-scale droplets of quark-gluon plasma (QGP) are formed in so-called small systems at high-energy colliders is a pressing question in the phenomenology of the strong interaction. For proton-proton or proton-nucleus collisions the answer is inconclusive due to the large theoretical uncertainties plaguing the description of these processes. While upcoming data on collisions of 16O nuclei may mitigate these uncertainties in the near future, here we demonstrate the unique possibilities offered by complementing 16O16O data with collisions of 20Ne ions. We couple both NLEFT and PGCM ab initio descriptions of the structure of 20Ne and 16O to hydrodynamic simulations of 16O16O and 20Ne20Ne collisions at high energy. We isolate the imprints of the bowling-pin shape of 20Ne on the collective flow of hadrons, which can be used to perform quantitative tests of the hydrodynamic QGP paradigm. In particular, we predict that the elliptic flow of 20Ne20Ne collisions is enhanced by as much as 1.170(8)stat.(30)syst. for NLEFT and 1.139(6)stat.(39)syst. for PGCM relative to 16O16O collisions for the 1% most central events. At the same time, theoretical uncertainties largely cancel when studying relative variations of observables between two systems. This demonstrates a method based on experiments with two light-ion species for precision characterizations of the collective dynamics and its emergence in a small system.
Other source Inspire
Copyright/License preprint: (License: CC BY 4.0)



 


 Zapis kreiran 2024-02-13, zadnja izmjena 2024-05-21


Cjeloviti tekst:
Download fulltext
PDF

  • Send to ScienceWise.info